The present study aimed to investigate the mechanical property of heavy ions irradiated
Reduced Activation Ferrite/Martensitic (RAFM) steels. The CLF-1 steel was irradiated by …

The Nano-indentation deformation behavior of the heavy ion irradiated RAFMs is
investigated in the present work. Specimens of the CLF-1 steel were irradiated with 123.4 …

To assess the irradiation induced hardening and the modification of deformation modes at
the grain scale on 304L steels used in irradiated structural components in nuclear reactors …

Radiation-induced hardening of newly developed Ti/Ta-added reduced activation ferritic-
martensitic (RAFM) steel is evaluated by combining self-ion irradiation and cross-sectional …

Reduced-activation ferritic/martensitic steels, RAFs, are leading candidates for blanket and
first wall of fusion reactors, and effects of displacement damage and helium production on …

The irradiation hardening behavior of F82H reduced-activation ferritic steels after MeV Fe-
ion beam irradiation experiments was investigated with a nanoindentation test. Two sets of …

This study investigates the mechanical properties of A508-3 steel irradiated with Fe ions to
0.1, 0.4, 2.0, and 5.0 dpa at 20, 100, and 300° C using a nanoindentation experiment and …

The evaluation of the temperature dependence of irradiation hardening in a reduced
activation ferritic/martensitic steel (RAFs), F82H (Fe–8Cr–2W–V–Ta) and Ni-doped (1%, 2%) …

A kind of reduced-activation ferritic-martensitic steel, CLF-1, was developed by the
Southwestern Institute of Physics, China, as a candidate structural material for fusion and …

A novel Fe-10Cr ferritic/martensitic steel called SIMP was chosen to investigate synergistic
effects of H and He on the mechanical properties of structural materials for innovative …